Embed Size (px)
Citation preview
Adarnson, M. and Carlsson, J. (1982) Iactopemxidase and thiocyanate
protect bacteria from hydrogen peroxide, Infect. Irnmun. 35,2024.
Agarny, E. I.. Roger, R., Mirl Ismail. Champage, C. P. and Robbed Assaf.
(1992) Antibacterial and antiviml activity of camel milk protective pmteins,
Eur. J. Biochem 59, 169.175.
Agawalla. S., Gokkale, R. S., Santi, D. V. and Balamm, P. (1996) Co-
valent tethering of the dimer interface annuls aggregation in thymidylate
synthase, Protein Sci. 5(2) 270-277
Allen P i .?rid Momson, M. (1963) Arch. Biochem. Biophys. 102, 6-14
Amos Lariimnd and Abel Schejter. (1975) Nuclear Magnetic Resonance
evidence for the absence of iron coordinated water in horsemdish
peroxidase, Biochem. Biophy:;. Kes. Comrnuns. 62(2), 199-203.
Anderson. L A.. Bylkas, S. A. and Wilson, A. E. (1996) Spectral analysis
of lactoperox~dase evidence for zommon heme in mammalian peroxidase,
J. Biol. Chern 127(7), 3406-3412.
Athertoll, N M. (1993) Pnnc~ples of E.lectron Spin Resonance, Ellis
Howood Ch~chester.
Aune. T. M. and Thomas E. :L. (1977) Atrumulation of hypothiocyanite
ion during peroxidase catalysed oxidation of thiocyanate ion, Eur. J.
Biochem. 80, 205)-214.
Bank. J. G. and Ebard, R. G. (1985) Preservation by the kdopemxidase
system of a contalminated infant milk formula, Letts. Plppl. Microbial. 1,
8 1-85
Barrett-Nicholette, E., Gmndison-Alistair, S. and Lewis-Michael, J. (1999).
Contribution o:f lactoperoxidase system of keeping quality of pasteurized
milk, J. Dairy Research66(1), 73-80.
Bayse, G. S., Michaels, A. W. and Monison, M. (1972) Lactopetuxid'ise
catalyzed i~din~dion of tyrosine peptides, Biochem. &ophys. Acta 284,
30-33
Benoy, M. J a c ~ b , Manoj, N. K. and Haridas, M. (1998) Antibacterial
propelties of goat milk lactoperoxidase, Ind. J. Exp. Biol.. 36, 808-810.
Benoy M. Jacob (1999) Biophysical and biochemical studies of
lactoperoxides, Ph. D. Thesis Mahatma Gandhi University, Kottayam.
Benoi;. M. .Jacob, Antony, E. Sreekurnar, B. and Haridas. M. (2000)
Thiocyanate mediated antifungal and antibacterial property of goat milk
lactoperoxidase, Life Sciences 66(25), 2433-2439.
Berl~r~ei I .J 1978) Method.. I I I Enzymology, 69, p 418
Beu~ner, K . R.. I'Joomen, A. and Kampelrnaeher, E. H. (1985) The effect
of lacroperox~dase system on reduction of Carnpylobacter jejuni in raw
milk J. Microblol. 51. 501-503.
Bjorck. I,.. Hosein, C. G., Manhall, \I. M. and Reiter, B. (1975)
Antibacterial activity of 1actoperoxida:je system in milk against
Pseudo~ni~nas and other gram-negative bacteria, Appl. Microbiol. 30, 199-
204.
Bjorck. L. (1988) Code of practice for the presetvation of raw milk by the
lactoperoxidase system, IDF Bulletin, No. 234, 1-15.
Borch, E., Wallentin, C., Rosen, M. and Bjorck L. (1989) Antibacterial
effect of the lact(3pemxidase,hydrogen peroxide and thiocyanate system
against strains of Compylo6acter isolated from poulty, J. Food Prot. 52,
638-641
Booth, K. S., Kimura, S., Caroline Lee. H., lkeda Saito, M. and Wi low ,
S. Canghey. (1989) Bovine lactoperoxidase and lactoperoxidase each
contain a high affinity site for calcium. Biochem and Biophys. Res.
Communs. 160(8), 897-902.
Bortoluss~, R., Vandenbrouke, Grauls. C. M. J. E.. Van Asbeck, B. S. and
Verhoef, J. (1987) Relationship of bacterial growth phase to killing of
Listerid monocqrtogenes by oxidative agents generated by neutrophils and
enzyme system, [nfect. Immw~. 55, 31973203.
Bosch, E. H., V,an Doome, H. and De Vries, S. (2000) Lactoperoxidase
system-the influence of iodide and the chemical and antimicrobial stability
over the period of about 18 months, J. Appl. Microbiol. 89(2), 215-224.
Bricker, D. S (1991) Colostrun~, implications for accelemted recovery in
damaged muscL? and cartilage. preventicmn of some pathogenic disease,
The Arnericarl chiropractor. 4-25
Cals, M. M., Mailliart, P., Brignon, G., Anglade. P. and Dumas, B. R.
(1991) Primay structure of bovine lactoperoxidase, a fourth member of a
mammalian heme pemxidase family, Eur. J. Biochem. 198(3), 733-739.
Cals, M. M.. C;uiUomol, M and Martin, P. (1994) Gene encoding
lactoperoxidase ils expressed in epithelial cells of goat lactating mammaly
glands, Cellular and Molecular Biology 40(8), 1143-1150.
Carktroni. A. (1969) Acta Chem. Scand. 23, 203-213.
Carlsson, J.. Iwami, Y. and Yamada, T. (1983) Hydrogen peroxide
excretion by oral St+eptococci and effect of lactoperoxidase thiocyanate
and hydrogen peroxide, Infect. Immun. 4Cl(l). 70-80.
Chakmborty, B. K., Chaundry, S. S., Alex. K. A.. Jamb, G. and Sani, G.
J. (1986) Application of the lactopemxidase system for preserving buffalo
milk produced in Indian villages, Milchwissenschaft 41. 16-19.
Chance. B. arid Maehly, A. C. (1955) Sn Methods in Erlzymology (S. P
Colowick and N. 0 Kaplan (ed.), Vol. 2, Academic press, New York 755-
764
Charles, D, and Bernard, R. (1983) Identification, purification and
chamcterimtior~ of a non-heme lactoperoxidase in bovine milk J. Biol.
Chern. 258(23), 14166-14172.
Chen, R. F. and Edelhoch, H. (ed.) (1976) 13iochemical fluorescence Vol.
2. Concepts, Marcel Dekker Newyork.
Choth~a, C. (1!984) Principles that detemine the structure of proteins,
Annul. Rev. Biochem. 53,537-552.
Chun. 5. Y.. Strobel . S., Bassford, Jmnd Randall, L. L. (1993) Folding of
maltose- binding protein. Evidence for thc? identity of the rate determining
step in vivo and in vitro. J. Biol. Chem .268(28), 20855-20862
Clark. (;. D and Wyatt, K. (1996) Colosirum, Life's First food, Salt lake
city, CNR publications.
Comrr~ack. K and Shergill, J . K. (1996) EPR spectroscopy of protein in
protell1 LabFax (NC price ed. ) Hios Scientific Publishers, UK, 217-230.
Courto~s, P.. Labbe, M., Majetus, P., Vanden, A,, Pourtois. M. and
Youmssowsky. I. (1989) Susceptibility of anaerobic microorganisms to
hypothiocyan~ti? produced by lactoperoxid~se, J. Dent. Res. 68, p. 1002.
Courto~s, P.. Varr Beers. D., Foor, M., Mandelbaum, I. M. and Pourtois,
M. (1990) Abolition of herpes simplex cytopathic effect after treatment
with peroxidase gznemted hypothiocyanite, J. Biol. Buccale. 18, 71-74.
Courtols. F'.. Majerus, P. I., Abbe. M., Vanden Abbecle. Pourtois, M. and
Youmssowsky. 1. (1992) Susceptibility of anaerobic micro-organisms to
hypothiocyanite produced by lactopemxidase. Acta Stornatal. Belg. 89,
155-162.
CowGill, R. W. (1976) Tyrosyl fluorescene In proteins and model peptides
in Biochemical fluorescence, Concepts, R.. F. Chen and Edelhoch (ed.).
Marcel Dekker. New York 441-486.
Creighton, T E. (1993) In proteins Shcture and Molecular pmperties (2nd
ed.), Freeman. New York.
Dahl, T. A,. Midden, W. R. and Hartman, P. E. (1989) Comparison of
killing of gram negative and gram positive bacteria by pure singlet oxygen,
J. Bacteriol. 171, 2188-2194.
Dav~d, G. 5. (1972) Solid state ladoperoxidase: a high stable enzyme for
simple.gentie lodination of proteins, Blochem. Biophys. Res. Communs.
48(21, 464471.
Denisova, H., Vesser, N. R., Belkova, E. I., Vlichko, L. N. and Gennadeva,
T. 1. (1987) Action of lactoperoxidase system on Sa/monel/a and Shi@e//ae,
J. Microbiol. Inimunobiol. 11, 99-103.
Dennm, F and Hamet, J. P.(1989) Antibacterial activity of lactopemxidase
systeni on Lisft,na rnonocptc)genes in bypticase soy. broth, WIT milk and
French soft cheese, J. Food Prot. 52, 706-711.
Dewahi. M., :Seto, P. and Rapoport, B. (1989) Complete nucleotide
sequence of th82 cDNA for thyroid pero:tidase in FRTL5 rat thyroid cells,
Nucl~c Acids Res. 17(20), p. 8380.
Desie, G.. Boons, N. and Deschlyver, F. C. (1986) Study of the time
resolved ttypt(2phan fluorescence of cystaline alpha chymotrypsin,
Biochemistzy 25, 8301-8310.
Deva, M. S. and Behere, D. V. (1!299) Fluorescence and Circular
Dichroism spectroscopic studies on bovine lactopemxidase, Biornetals
12(3). 219-225
Doerge, D. R. and Niemaum, W. P. (1989) Suicide inactivation of
lactoperoxidase by 3-amino 1, 2, 4 triazole, Chem. Res. Toxicol. 2(2),
100-103
Dugad. L. B.. LaMar, G. N.. Lee, H. C., Ikeda Saito, M., Booth K. S. and
Caughey. W. S. (1990) A nuclear Overhauser effect study of the active site
of rnyeloperoxiciase. Structural similarity of the prosthetic group to that on
lactoperoxidase. J. Biol. Che~n. 265(13), '7173-7179.
Dull, T., Uyeda, J. C., Strosberg, A. D., Nedwin G. and Seilhamer, J. J.
(1990) Molecular cloning of cDNA encoding bovine and human
lactoperoxidase, DNA Cell Biol 9, 499-509.
Earnshaw. K. C;. and Bank, J. G. (1989) A note on the inhibition of
Listena 1nonoqkogene.5 NCTC 11994 in milk by an activated
lactoperoxidase system, Letk. Appl. Micmbiol. 8,203-205.
Edelhoch. H., Perlrnan, R. L. and Wichek, M. (1968) Fluorescence studies
with tyrosyl peptides, Biochemisty 7,3893-3900.
Edsali. J T. and Mckenzic. H. R. (1983) Water and proteins, Ad.
Biophysics 16, 51-183.
Eftink, M. R, and Ghimn, C. A. (1976) Exposure of hyptophanyl residues
in proteins. Quantitative determination by fluorescence quenching studies,
Biochs~li 15, h72-680.
Eftink. M K . Zajsek J. L. arid Ghiron, C. A. (1977) A hydrophobic
quencher of protein fluorescence and protein dynamics, 2, 22
trichloroetanol, Biochem. Biophys. Acta 491, 473481
Eftink. M. K. arid Ghiron, C. A. (1981) Fluorescence quenchingstudies on
the pruteitls, Anal. Biochem. 114, 199-227.
Eftink, M. !1983) Quenching- resolved e~nisson anisotropy studies with
single {irid ~ndtltryptophan-containing prot(?ins, J. Biophysics 43(3), 32.3-
334.
Ekstmnd, B., Mullan, W. M. A. and Waterhouse, A. (1985) Inhibition of
the antibacterial lactopemxidase thiocyanate and hydmgen peroxide
system by heat-treated mik, J. Food Prot. 48, 494498.
Ellis. W. D. and Dunford, M. B. (1969) The effect of tempemture and ionic
strength on the formation of the hydmxrde complex of fenic horseradish
peroxldase, Arch. Biochem. Biophys, 133 (2), 313317.
Ericsson. 0. B. and ivamon, S. A. (1987) Endogenous antibodies to
bovine LP in children and adolescents, Allergy 42(6), 430-433.
Fabry, T. L., Kim. J., Koeng, S. H. and Schiilinger, W. E. (1971) In Probes
of Structure and Function of Macromolecules and Membranes, (edited by
Chance B., Yor~etani, T. and Mildvan, A. S.) 11, 311-315.
Faucon, J. F.. I)ufoureq, J. and Lussan, C. (1979) The self association of
melittion and its binding to lipids, FEES Letts. 102, 187-191.
Fenn,3. H . Zeng J. and Davey. C. (1995) Structure of the green heme in
myelupel-ox~dase. Arch. Biochern. Biophys. 316(1), 653-656.
Fenan, R. P.. Laurenti, E., Cecchini, P. I., Cambino, 0. and Sondergaard,
1. (1995) Spectroscopic itivestigatio~ls on the highly purified
lactoperoxidase, Fe (111) heme catalytic site, J. Inorg. Biochem. 58(2), 109-
127.
Fielder 1 . Davfzy, C. A. ancl Fenna, R. 13. (2000) X-my cystal stmcture
and characterization of halide binding sites of human rnyelopemxidase at
1.8K resolution., J. Biol. Chem. 275 (16), 11964-11971.
Floris, R.. Moguilevsky, N., Puppels, G., Jacquet, A,, Renirie, R., Bollen,
A. and Wever. R. (1995) Heme protein interaction in rnyelopemxidase, J.
Amer. Chem. Soc. 117 (14), 3907-3912.
Gary S. David and Ralph A. Reisfeld. (1974) Protein iodination with solid
state lactoperoxidase, Biochemishy 13 (51, 1014-1021.
Gebicka. L. and Gebicki, J. L. (1996) Scavenging of oxygen radicals by
hem? perox~da:jes, Acta Biochemica Polonica. 43 (41, 673-678.
George. P. and Lyster, R. L. J. (1958) Pmc. Natr. Acad. Sci., 44, 1013-
1029.
Gern~runu, G. R. and Teleison, 1. Ivl. (1982) Glucose uptake by
Stre~~roc~:~cc~ii inutans and Actjnomyces viscosus in presence of human
saliva. Iniei-1 Irnmun. 38, 1060-1067.
Gersoii, i.., Sabater, J., Scun, M.. Torbati, A,, Correy, R., Abraham, J. M..
Lauredo, I. . Fotteza, R., Wanner. A., Salathe, M., Abraham, W. M. and
Conner, (;. E 1:2000) The lactopemxidase system functions in bacterial
clearance of airways, Amer. J . Respimtcbly Cell and Molecular Biology
22(6), 665-671.
Gioia, L.. Ghibaudi, E. M.. burenti, E., Salrnona, M. and Fenari, R. P.
(1996) A theoretical three-dimensional rnodel for lactoperoxidase and
eosinophii peroxidase, built on the scaffold of myelopemxidase X-ray
structure, J. Biol. Inorg. Chem. 1 (5), 476435.
Goff, H. M., Gormlez-Vergara, E. and Ales, D. C. (19851 High resolution
proton Nuclear Magnetic Resonance spectroscopy of lactopemxidase,
Biochem. Biophys. Res. Comniuns. 133(2).. 794-799.
Gothefors, 1. and: Marklund, S. (1975) Lactoperoxidase activity in human
milk and 111 saliva of newborn infants, Infect. Immun.l1(6), 1210-1213.
Haddadin. M. S.. Ibmhim, S. A. and Robinson, R. K. (1996) Presetvation
of raw milk by activation of natural 1actope:roxidase system, Food Control
7(3), 149-152
Hamon, C B. and Klebanoff, S. J. (1973) A peroxidase- mediated
Streptococcus mihs dependent antimicrobial system in saliva, J. Exp. Med.
137(2). 438-441.
Hanssen. F. S. (1924) Br. J. Exl,. Path. 5:p. 271.
Harbuly. H. A. (1957) J. Biol. Chem. 22!5, 1009-1024.
Hamngton-Fowler, L., Henson, P. M. and Wilder, M. S. (1981) Fate of
Listerla 1noi1ocflogenes in resident and activated macrophages, Infect.
Imrnun. 33. 11-16,
Haschke K H. and Friedhofi. J. M. (19:78) Calcium-related properties of
horseradish peroxidase, Biochem. Biophljs. Res. Communs. 80(4), 1039-
1042.
Henry F J an,l. Hany, A. K. (1966) The composition and properties of
milk and factor; affecting the same In Milk Production and Processing,
John Willay X Sons Inc., New York, 284:l .
Hirano, K , H~mno, M., Oooka, M. and Hatanaka, K. (1998) The effect of
lactoperoxidase on gelati011 properties of yoghurt, Food Research
International 3111), 1-6.
Hogg, D. McC and Jago, G. R. (1970) The antibacterial action of
lactoperoxidase. The nature of the bacterial inhibitor, J. Biochem. 117,
779-790
Hoogendmm. 13. (1976) The inhibitoy action of the lactoperoxidase
system on St~ptococcus mutans and other organisms, Micmbiol. Abstr 2.
spcel, suppl. 353-357.
Hoogendoom. H., Plessens, J. P., Scholtes, W. and Stoddard, L. A.
(1977) Hypothiocyanite ion the inhibition formed by the system
lactoperoxidase thiocyanate and hydmger~ peroxide, Caries Res. 11, 77-
84.
Hubert, R E , Edward, L. A. and Thomas, J. C. (1989) Studies on the
mechan~sm oi the iodination of tyrosine by lactoperoxidase, J. Biol.
Chem. 268 (31, 1381-1386.
Hultquist, D. E. and Morrison, M. (1963) Lactoperoxidase. The prosthetic
group of lactoperoxidase, J. Biol. Chem. 238, 2843-2846.
Isozak, O., Kohn, L. D., Kozak, C. A. and Kimura, S. (1989) Thyroid
peroxidase: rat cDNA sequence, chmmo:jomal localition in mouse, and
regulation of gene expressiorl by comparison to thyroglobulin in rat FRTL-
5 cells, J Endocrinol. 3(11), 1681-1692.
Iwamoto, Y , and Matsumurn. T. (1966) Arch. Oral. Biol. 11,667-676.
Jago. G . R, and Monison, M. (1962) Antistreptococcal activity of
lactoperoxidase, Pmc. Soc. h p . Biol. Mesd. 111,585.
Jandal, J . M (1996) lactoperoxidase-onion exhad-ethanol system in the
presewation of :raw baffalo milk, J. Buffalo12 (2), 193-199.
John R. Hoium. (1996) In General Organic and Biological chemistry 6*
ed. John Wiley and Sons Inc., New York.
Kamau, D. N., Doores, S. and Pruitt, E;. M. (1990) Enhanced thermal
destruction of Listeria rnanocytogenes .and Staphyla'oci:~ aureus by
Lactoperoxidase system, Applled Envtal. Microbial. 56(6), 2711-2716.
Kamau, D N., Doores S. and Pruitt, K. M. (1991) Activation of
iactoperox~dase system prior to pasteurization for shelf life extension of
milk, Mitchwlssenschaft 46, 213-214
Kanqutntia, J . (;., Venter, E. H. and Costzer, J. A. (19773 The effect of
activat~o~i of the lactoperoxidase system and souring on ceb in potential
human pathogenes in bovine milk. J. S. Afr. Vet. Assoc. 68(4), 130-136.
Keii~n L) <lr~ci Hartree, E. F. (1950) J. Biochem. 49, 88-104
Khurana, R, and Udgaonker, J. B. (1994) Equilibrium unfolding studies of
barstar evidence for an alternative conformation which resembles a
molten globule, Biochemistry 33(1) 106-1115.
Kirnura, S . and 'famazaki. 1. 11978) Heme linked ionizatiori and chloride
binding in Intestinal peroxidase and liildoperoxidase,Archh Biochem.
Biophys. 189, 14-19,
Kimum, S. and Yamazaki, I. (1979) Comparison between hog intestinal
peroxidase and bovine LP compound 1 formation and inhibition by
benzhydroxamic acid, Arch. Biochem. Biophys. 198, 580-588.
Kimum, S., Yarnazaki, I. and Kitagawa, 'T. (1981) Unusual low frequency
Resonance Raman spectra of heme obse~ved for hog intestinal pemxidase
and its derivatives. J. Biochemisby 20 (lei), 4632-4637.
Kimum, S., Kotani, T., Mcride, 0. W., Umeki, K., Nakayama, T. and
Ohtalu, S. (1987) Human thyroid peroxidase: complete cDNA and protein
sequence, chromosome mapping and identification of two alternately
spliced mRNA, Proc. Natr. Acad. Sci.. . U!jA 19,5555-5559.
Kimum, 5. anc lkeda Saito, M. (1988: Human myeloperoxidase and
thyrold peroxidase enzymes with separate and distinct physiological
functions are evolutionay related memb'ers of the same genetic family,
Proteins Struct. Funct. Genetics 3, 113-12'0.
Kimum, 5., Hong, Y. S., Kotani, T., Ohtaki, S. and Kikkawa, P. (1989)
Shucture of the human thyroid pemxidase gene: comparison and
relationship to the human myeloperoxihe gene, J. Biochem. 28, 4481-
4489.
Klebanoff, S. J , Clem, W. H. and Luebke, R. G. (1966) Pemxidase
thiocyanate and hydrogen peroxide antimicrobial system, Biochem.
Biophys. Acta 117, 63-72.
Klebanoff, S. J. (1991) Myeloperoxidaie, Occumnce and Biological
function In K. M. Pruitt and Tenouvo J (ed..) The lactopemxidase system,
Chemistry and Biological significance, Marcel Dekkar. Inc. New York, 1-
35.
Kobayashi, M., Hiroshi, S., Tojiro, T. and Setsuko, T. (1999) Simple
purification of lactoperoxidase from goat milk, Nippon-Shokuhin-Kagaku-
Kogaku-Kahsh146(2), p. 990101.
Koichi, S., Hideyo, H., Akihiri, T., Junji, S.. Nakamum, S. and Toichim,
H. (1995) Effects of mixed solvents on the three elementary steps in
reaction of horseradish peroxide and lac:toperoxidase, Biochem. Biophys.
Acta 1253. 94-102.
Kooter, I M.. Moguilevsky. N , Bollen, A., Sijtsema, N. M., Otto, C. and
Wever, R 11997a) Site d~rected mutagenesis of Met 243, a residue of
myeloperoxidase involved in binding of prosthetic group, Biol. Inorg.
Chem. 2(2). 191~197.
Kooter. 1. M., Pierik, A. J . . Merkx, M., Averil, B. A., Moguilevsky, N.,
Bollen. 4. and Wever, R. (1997b) Difference Fourier transform infrared
evidence fo: ester bonds linking the heme group in myeloperoxidase,
lactoperoxidast: and eosinophil peroxidase, J. Arner. Chem. 119(4),
11542-11543.
Kooter, I M., Bollen, A., Moguilevsky, N., Sijtsema, N. M., Otto. C.,
Dekker, H. L. and Wever, R. (1999) Chi~mctetiPtion of Asp 94 and Glu
242 mutants i r~ myeloperoxidase, the residues linking the heme p u p
(via) ester bands, J. Biochemistry 264 (4), 211-217.
Kretsinger. R. H. (1976) Calcium binding proteins, Annul. Rev. Biochem,
45,239-266
Krontnan. M. J. and Holmer, L. G. (1971) The fluorescence of native,
denatured and reduced denatured protein, Photochem. Photobiol. 14,
113-134.
Kussendmger, K. D. and Van Hooijdonk, A. C. M. (2000)
Lactoperoxidase, physico-chemical properties occumnce, mechanism of
action and applications, Br. J. Nutr. 84(1), 19- 25.
Lakowlu J K. and Weber, G. (1973) Quenching of pmtein fluorescence
by oxygen Detection of structural fluctuations in proteins on nanoseconds,
Biochemlstryl2,4171-4179.
Lakowiu. J. R. (1986a) Protein fluorescence In Principles of Fluoresence
Spectroscopy, Plenum Press, NewYork, 341-431
Lakowiu. J . H. (1986b) Quenching of fluorescence In Principles of
Fluoresence Spectroscopy, Plenum Press, New York, 257-301
Laetnmlt, U. K. (1977) Nature (London) 277,680-685.
Langbakk, B. and Flatmark. T. (1984) Demonstration and partial
purif~cation of lactopemxidase from human colostrum, FEBS Letters
174(2). 300-30:3
Langbakk. B. and Flatmark. T. (1989) Lactoperoxidase fmm human
colostrurrt. J Biochem. 259(3), 627-631.
Lehrer, 5. 5. (1971) Solute perturhatictn of protein fluorescence. The
quenching of tryptophan fluorescence of model compounds and lyzozyme
by iodide, Biochem. 10.3254-3263
Lehrer. S. S. and Leavis, P. C. (1978) Methods in ENymology, Academic
press, New Yo&. 49, p. 222.
Lever, A. V. P. (1984) Electronic spectra of dn loan In Organic Uecbunic
Spectroscopy 2"" ed. Elsevier. Amsterdam, p. 453.
Libert. F., Ruel. J., Ludgate, M., Swillens, S., Alexander, N. and Dirt,
C. (19871 Thyroid peroxidase, an autoantigen with a mosaic shucture
made of nuclear and mitrochondrial gene modules, J. EMBO 6, 4193-
4196.
Loimamnta, V., Tenovuo, J . and Korhonen, H. (1998) Combined
inhibitoy effect of bovine immune whey and peroxidase
hypothiocyanate against glucose uptake by Sfreptococcus mutans, Oml
Microbial. Immun. 13(6), 378-381.
Lopez-Fandlno, R., Canascosa, A. V., Olano, A. and Fandino. R. L.
(1996) The effect of high pressure on whey protein, denaturation and
cheese making properties of raw milk, J. Daiy Science 79(6), 929-936.
Lowry, 0. H., Rosebmugh, N. J., Far, A. L. and Randall, R. J, (1951)
Protein measurement with the Foline-Phenol reagent, J. Biol. Chem. 193,
265-275.
Lukat, G. S., Rodgers, K. R. and Goff. H. M. (1987) EPR lactoperoxidase
complexes-clarification of hyper fine splitting for the nibsyl adduct of
lactoperoxidase, Biochem. 26(22), 6927-6932.
Lumikari. M.. S>uWca, T., Numio, S. and Tenovuo, J. (1991) Inhibition of
growth of Streptococcw mutans, Lactobaci//i, Arch. Oral Biol., 36, 155-
160.
Lumikan. M.. Tenovuo, J. and Mikola, H. (1993) Effects of
lactoperoxidase system containing tooth paste on level of hypothiocyanite
and bacteria in saliva. Caries Res. 27, 285-291.
Magnusson, R. P., Gestautas, J., Taumg, A. and Rapport, B. (1987)
Molecular cloning of the shuctural gene for porcine thyroid peroxidase, J.
Biol. Chern. 262, 13885-13888.
Mandel, I. D.. Behrman, J., Lay, R. and Wernslem, D. (1983) The
salivary lactopetoxidase system in cattle resistant and cares susceptible
adult, J. Dent. Res. 62, 922-925.
Marcoei, G. (1996) A rapid procedure for the purification of human
salivary peroxidase, Biomedical Chromatogmphy 10(2), 97-98.
Maret, W. and Zeppezauer, M. (1988) Methods in Enzymlogy 158, p. 79.
Marshall, V. M. and Reiter, B. (1980) Comparison of the antibacterial
activity of the hypothiocyanite ions tourards S t r~p toc~ccs /actis and
Escherichia co11, ,J . General Microbial. 120, 512-516.
Martin S. R. (1996) Circular Dichmism In protein, Lab Fax N. C. Price
(ed.) Bias Scientific publication. U. K., 195-204.
Mazumdar, A., Adak, S., Chattetjee, K. and Banerjee R. K. (1997).
Mechanism based inactivation of lacrimal gland peroxidase by phenyl
hydmzene a suicidal substrate to probe the active site, J . Biochern. 324(3),
713-719.
Michael G. M. (1996) Pmtein structure analysis using Circular Dichmism
In spectroscopic methods for determining pmtein structure in solution
(Heny A. Havel, ed. ) VCH publishers, Inc. U. K., 5-27.
Modi, S. Behere, D. V. and Mitm, S. (1990) NMR studies of binding of
thiocyanate to lactopemxidase and horsemdih pemxidase, heme
enzymes, lnd. J . Chem.,29,301-311.
Monica Cheesbrough (1985) In Medical labomtoy manual for Tropical
countries, Vol. 2. Microbiology, Butteworth and Company, IJ. K.
Moodbidn, S. B., Joshi, L. K. and Sheth, A. R. (1976) Procedure for
mdioiodination of peptide hormones using ladoperoxidase isolated fmm
buffalo milk, Ind. J . Exp. Biol. 14, 572-574.
Morell, D. B. and Clezy, P. S. (1953) Biochern. Biophys. Acta. 31, 567-
572.
Morell. 1) B and Clezy, P. S. 11963) Biochern. Biophys. Acta 71, 157-
164.
Morishita, K.. Kubota, N.. Asono, K., Kazio, Y. and Nagat, S. (1987)
Molecular clon~ng and chamcterizaticn of cDNA for humiln
myeloperox~dase,J. Biol. Chen~. 262, 3844-3851.
Morrison. M.. Hamilton, H. 9. and Stoh, E. (1957) Isolation and
purification of lactopemxidase by ion exchange chromatography, J. Biol.
Chem. 228, 767-776.
Morrison, M. and Allen, P. 2. (1963) The identification and isolation of
lactoperoxidasc from salivary gland, Blochem. Biophys. Hes. Communs.
13 (6). 490-494.
Morrison, M. arid Allen, P. 2. (1966) Science, New York, 152, p. 1626.
Morr~son. M. and Bayse, G . S . (1970) Catalysis of iodination
by lactoperoxidase, Biochemistry 9 (15) , 2995-3000.
Morrison. M. and Schonbaum, G . R. (1976) Peroxidase-
catalysed halogenation, Annul. Rev.. Biochem. 45, 861-888.
Nichol, A. W., Lyndal, A., Therese Moon and Clezy, P. S. (1987)
Lactoperox~dase heme, an iron porphynn thiol, J. Biochem. 247, 147-
150.
Nitsch, A. and Nitsch, F. P (1998) The clinical use of bovine colostrum, J.
Orthomolecular Medcine, 13 (2). 110-118.
Ogawa, S.,Shir(s,Y, and Morishima, 1. (1979) Calciuni binding by
horseradish pelaxidase C arid the heme environmental structure,
Biochern. Biophys. Res. Communs. 90, 674-678.
Omm, J. D. and Reiter, B. (19661 The inhibition of Sfreptococci by
lactoperoxidase thiocyanate and hydrogen peroxide, J. Biochem. 10, p.
373.
Oxvig, C. Thornsen, A. R., Overguard, M. T., Sourensen, E. S., Hojrup,
P., Bejemrn, M. J., Gleich, C. J. and Sothup Jensen, L. (1999)
Biochemical evidence for heme linkage through esters with Asp 23 and
Glu 241 in human eosnophil, peroxidase-the ester in the Asp 93 is only
partially formed in vjvo, J. Bioi. Chem. 274(24), 16953-16958.
Pace, C. N (1986) Determination and analysis of urea, GuHCl
denatumtion cuwes, Methods in Enzymology 131.266-280.
Perret, C., Lornri. N. and Thornassel, M. (1988) Evolution of the EF- hand
calcium binding protein family: evidence for exon shuffling and intron
insed~or~. J . Mol. Evol. 27(4), 351-364.
Pfeil. W. and Ohisson, P. I. (1986) Lactoperoxidase consists of domains-A
Scanning Calorimetric study. Blochem. Biophys. Acta 872(1-2), 72-75.
Polis. B. 1). and Shmukler, H. W. (1953) Cystalline lactopemxidase
isolation by displacement chromatography, physiological and enzyme
properties, J Biol. Chem. 201, 475-500.
Popper, L. and Knom, D. (1997) Inactivation of yeast and filamentous
fungi by lactopemxidase, hydrogen peroxide and thiocyanate system,
Nahrung 41 ( I ) , 2933.
Portmann, A. and Auclair, J, E. (1959) Relation entre la ladenine L2 et la
lactoperoxidase. Lait. 39, 147-158. Cited in Daiy Scienr~ abstract 21,
2638
Pourtois. M.. Binet, C., Van-Teeghem, N., Courtois, P. and Van Den
Abeele, A. (1990) Inhibition of H N infectivity by lactoperoxidase
produced by hypothiocyanite, J . Biol. Bucmle. 18,251-253.
Pruitt. K. M.. Rahemtulla, M. B. and Tenovuo, J. (1983) Detection of
hypoth~ocyanite Ions in human parotid saliva and effect of pH on
hypothiocyanlte generation i l l the salivay peroxidase antimicrobial
system, Arch. 01al Biol. 28, 517-525.
Pruitt. K. M. and Reiter. B. (1985) Bioc:hemistry of peroxidase system,
antim~crobial effects In K. M. Pmitt and Tenovuo, L. (ed. ) The
lactoperoxidase system, Chemisty and Biological significance, Marcel
Dekker. IIK., New York, 143.178.
Pruitt, K. M., Kziniau, D. N., Miller, K., Rahemtulla, M. B. and Rahemtulla,
F. (1990) Quantitative standardized assay for determining the
concvntraiiorls of bovine lactoperoxidase, human salivay peroxidase and
human n~yeloperoxidase, Anal. Biochem. 191. 278-286.
Pruitt, K. M. and Kamau, 1). N. (1991) In Oxidative Enzymes in Food
(Robinson. D. S. and Eskin N. A. M. ed. Ekevier, London, p. 133.
Quiynen. M., Dekeyser, C. and Van Steenberghe, D. (1991) The
influence of ggival inflammation, tooth type and timing on the mte of
plaque formation, J. Periodontol. 62, 219-222.
Rae, T D arid Goff, H.M (1996) Ladoperoxidase heme structure
characterized by Paramagnetic proton NMR spectroscopy, J. Amer. Chem.
SOC. 118.2103-2104.
Rae, T D. and Goff, H. M. (1998) The heme prosthetic group of
lactoperoxidase structural characteristics of heme I and peptides, J. Biol.
Chem., 273(13), 27968-27977.
Rajeshkuriar. Bhatia, K. L.., Beh l , 0. and Singh, T. P. (1995)
Purification, crystallization and preliminarq X-ray crystallographic analysis
of lactoperoxidase from buffalo milk Acta. Cystallogmphw, Section D
Biocystllogmphy5l(a), 1094-1096.
Rahemtulla, M. B., Baldone, D. C., Pntitt. K. M. and Rahemtulla, F.
(1986) Specific assays for peroxidase in human saliva, Arch Oral. Biol. 31,
661-668.
RahemtuUa, M. B., Baldone, D. C., Pruitt, K. M., Hjerpe, A. and
Rahemtulla, F. (1.988) Purification and characterization of human salivay
peroxidase. Biochem. 27 (I) , 233-239.
Ratnet. J . P. and Lefebvre, G. (1996) Improvement of microbial quality of
goat raw rnilk by reactivation of the lactoperoxidase system during
refrigemtion, Proceedings Crete Greece 19-21, 95.101.
Reiter. B. and Omm, J. D. (1967) Bac1:erial inhibitors in milk and other
biological fluids. Nature 216,328-330.
Reiter, B.. Valerie, M. E., Marshall, V. M., Bjorck, L. and Rosen C. G.
(1976) Non-specific bactericidal activity of the lactoperoxidase system of
milk against Escherichia colj and some -grams negative pathogens, Amer.
Soc. Microbiol. 13(3), 800-807.
Reiter. B. (1978) Review of Progress of Daiy Science, Antimicrobial
systems in milk, J. Daiy Res.45, 131-147.
Reiter, B. and Hamulv, G. (1984) Lacti,peroxidase antibacterial system
natuml occurrence, biological functions and practical applications, J. Food
Prot. 47. 724-732.
Reiter, B. 11985) The lactoperoxidase system, Chemisby and Biological
Significance. Pn~itt. K. M, and Tenovuo, J., ed. Marcel Dekker, New York,
143.178.
Richard, J., M a n n , G. and William R. J. (1972) Oxidation-reduction
potentials and ionization states of two turnip peroxidases. Eur. J. Biochem.
28, 566-578
Richards, F. M. (1992) Folded and unfolded proteins In An introduction to
Protein Folding Weighton T. E. (ed.) Freeman, 1-58.
Richwards, M. Schultz (1982) Protein-1 composition and shucture In
textbook of Biochemistry with clinical correlations, John Wiley & sons Jnc.,
New York, Thomas M. Devlin (2' ed. ) 58.62.
Rombauts, W. A., Schmeder, W. A. and Morrison, M. ( 1 x 7 ) J. Biochem.
6,2965-2977.
181. Rona and Zoltan, P. (1998) Bovine colost~um emerges as immune system
modulator, Arner. J. Natr. Med. 19-23.
- 182. Saad-de Schoos, Oliver. G. and Femandez. F. M. (1999) Relationship
between lactoperoxidase system components in Creole goat milk Small
ruminant Research 32(1), 69-75
183. Sacchetta, P., Pennelli, A,, Bucciarelli, T., Cormelio, L., Amicarelli, F.,
Mimnda, M. and Dilio, C. (1999) Multiple unfolded states of glutathione
tmnsfemse GSTP1-1 by guan~dium chloride, Arch. Biochem. Biophys.
369, 100-106
184. Sakamalu, K., Tsclmonaga, M., Tsukui, K. imd Nagata, S. (1989) Molecular
cloning and chamcte~ization of a chromosomal gene for human
myeloperoxidase, J. Biol. Chem. 264, 16828-16836.
185. Santos, J . A,, Gonzalez, C., Maria Luis Garcia-Lopez, Maria-Camino
Gamcia Femandez and Otem, A. (1994) Antibacterial activity of
lactoperoxidase system against Aemmoniw bhyruphJa in broth, skim milk
and ewe milk. Letts. Appl. Microbial. 19, l61-164.
186. Shamnov, Y. A. (1995) Evidence for the high spin heme imn in both
stable and unstable reduced form of LP-low tempemture study by
Magnetic Circular Dichmism. FEBS Letters 377(3), 512-514.
187. Shincller. J S. and Bardsley, W.G. (11975) A steady state kinetics of
lactoperoxidase with ABTS as chromogen, Biochem. Biophys. Res.
Comrnuiis. 67(4). 1307-1312.
188. Shine. K . Hayasawa, H. and Lonnerdal, B. (2001a) Mutations affecting
the ,23liiu1r: binding site of myeloperoxidase and ladoperoxidase,
Biochem Biophys. Res Communs. 201(4), 1024-1029.
Shine, K . Hayasawa, H. arid Lonnerdal, B. (2001b) Purification and
quantificatloll of lactopercxidase in human milk with use of
immui~oadsorbents with antibody against recombinant human pemxidase,
Arner ,I . (:lit1 Nutr. 73(5), 984989.
Shine. K . Tomita, M. and Lonnerdal, B. (2000) Identification of
lactoperoxidase in mature human milk J. :Dairy Res. 11(2), 94-102.
Shiro, Y . and Morishima, I. (1986) Stmdural characterization of
lactoperoxidase in the heme environment by pmton NMR spectroscopy, J.
Biochem. 25(20), 584-5849,
Sieves, G , (1979) The prosthetic group of milk lactopemxidase is
protoheme IX Biochem. Biophys. Acta 579(1), 180-190.
Sieves, G. (1980) Structure of milk liidopemxidase -A study using
Circular Dichroism and Difference Absorption Spectroscopy, Biochem.
Biophys. Acta 624, 249-259.
S~ever;, C, 11981) Structure of milk lactoperoxidase-evidence for single
polypeptide cham, FEBS Letts 127(2), 253-256.
Simgusa, G R , and Johnso~r, M. G. (1989) Inhibition of Listerid
rnonocytogenes growth by lactoperoxidase antimicrobial system Appl.
Envtal. Microbial. 55(1 I ) , 2802-2805.
Slowey. R. R.. Eidelman, S. and Nebanoff, S . J. (1968) Antibacterial
activity of purified pemxidase from human parotid saliva, J. Baderiol. 96,
575-579.
Soukka, T., Lumikari, M. and Tenovuo, J. (1991) Combined inhibitory
effect of lactofemn and lactopemxidase system on the viability of
Streptococcu mutanssetvtypeC. Scand. d. Dent. Res. 99,390-396.
198. Steele, W.F. ar~d Monison, M. (1969) Antistreptocoual activity of
lactoperoxidase. J. Bacterial. 97,635-639.
Stelmazynska, T and Zgliaynski, J. M. (3.971) Eur. J. Biochem. 19, 56-
63.
Talbot, J. C. , Dufoureq, J., de b n a , J. Faucon, J. R. and Lurson, C.
(1979) Confomlational change and solf association of monometric
meiitt~n, FEBS. L.etts. 102, 191-193.
Taylor. K. 1.. Strobel, F., Yue, K. T., Ram, P., Pohl, J., Woods, A. S. and
knkade, J . M. Jr. (1995) isolation and identification of a protoheme K
derivative released during autolytic cleavage of human myelopemxidase
Arch. Biochem. Hiophys. 316jli. 635642.
Ten, R. M.. Pease, 1. R., MI: Kean, D. ,J. Gleich,G.H. and Bell, M. P.
(19891 Molecular cloning of h e human eosinophil peroxidase. Evidence
for the existence of a peroxidase multige~ne family. J. Exp. Med. 169(5).
1757-1769.
Tenovuo. J anti Knuuttla. M. L. (1977) Antibacterial effect of salivaly
perox~dases on a cariogenic strain of Strqptomccus mutam, J. Dent. Res.
56,608-1612.
Tenovuo. J , anti Pruitt, K. M. (1984) Relationship of the human salivary
peroxidase system to oral health, J. Oral. I'athol. 13, 573-574.
Tenovuo. J. 11991) Salivay pemxidase lln Everse, J., Everse, K. E. and
Grisham, M. B. (ed. ) Peroxidase in Chemistly and Biology, Vol. I, b c a
Rator CKC' Press, 181-197.
Thalin, R.. Loirriamnta, V. , Lumikari, M. and Tenovuo, J . (2001) The
sensivity of Porphymmonas gingivalis and Fwobacterium nudeam to
different pseudohalide peroxidase combinations compared with
Streptococcimotans, J. Med. Microbiol. 50(1), 4243.
Theorell. H. and. Akeson, A. (1943) Ark. Kemi. Mineral. Geol. 17 B., 7(1).
208. Thomas, E L and Aune, T M. (1978) Lactoperoxidase hydrogen
peroxrde and ihiocyanate systern, correlation of sulphydyl oxidation with
antirmcmbial action, Infec. Immun. 20,456463.
209. Thonias. E. 1.. lbter, K. P. and Jefferson, M. M., (1980) Hypothiocyanite
detection of the antimicrobial agent in human saliva, J . Dent. Res. 59,
1466-1472
210. Thomas, E. L., Eater, K. I ' and Jefferson, M. M. (1981) Peroxidase
antimicmbial systems of human saliva. Requirements for accumulation of
hypothiocyanit~z, J . Dent. Res. 60, 785-796.
211. Thomas, E. L., Pem, K. A., Smith, K. W. and Chwang, A. K. (1983)
Inhibition of C;treptococcrrs mutans by the ladopemxidase antimicmbial
system, Infect. Immun. 39, 767-778.
212. Thomas, E. I-. and Learn, D. B. (1991) Myelopemxidase-catalyzed
oxidation of chloride and other halides-the mle of chloramines. In M. B.
Grisharn and J. Everse (ed. ) Peroxidase Chemisby and Biology, Vol. I,
CRC press. Boca Raton, Fla, 83-104.
213. Thomas, E. L., Milligan, T. W., Joyner, R. E. and Jefferson, M. M. (1994)
Anti bacterial activity of ladopero:nidase, hydmgen pemxide and
thiocyanate system against oral Streptococci, Infect. Imrnun. 62(2), 529-
535
214. Thoms<iv A. K., Sottrup Jensen, L., Cleich, C. J. and Oxvig, C. (2000).
The status of half-cystine msidues and locations of N-glywsylated
aspamngine residues in human eosinophil peroxidase, Arch. Biochem.
Biophys. 379(1), 147-152.
215. van Steenbcrghe, D., Van den Eynde, E., Jacobs, R. and Quiynen, M.
(1994) Effect of lactoperoxidme containing toothpaste in radiation
induced xemstomia, J . International Cknta1&(2), 133-138.
Venturelli, D., Bittenbender, S. and Rovem, G. (1989) Sequence of the
murine myelope~oxidase gene, Nuclic Acids Res. 17(19), 7987-7988.
Villamel, M., L3pe.z-Fmndino, R., Corm, N. and Olano, A. (1997).
Denaturation of beta-lactoglobulin and native enzyme in the plate
exchange and holding tube section during continuous flow pasteurization
of milk, Food Chem. 58(1-2). 49-52.
Voet, D. and Voet, J. (1995) Three di~~ensional shucture of proteins In
Biochemisty 2"d ed. John Wiley &Sons Inc., New York 141-190.
Walter Kaurnann (1958) Some factors in the interpretation of protein
denaturation. Adv. Protein Chem. 14, 1-63.
Wang, H., Ye, X. and Ng, T. 8. (2000) First demonstmtion of an
inhibitoy activity of milk proteins against HIV-IRT and the effect of
succjnylation, Life Sci. 67(22), 2745-2752,
Warburg, (1. and Christian, W. (1943) Isolation and ctystallition of
enzyme enolase, Biochem 2310,384421.
Watanabe-Shkko, Varsalone-Fmnca, Ym-Yung-Choon, Guillaume-Jan-
Paul. Bollen-Alex, Shimazaki-Kellchi and MoguilevskyNicole (1998)
Recombinant bovine Iactoperoxidase as a tool to study the heme
environment in mammalian peroxidase, FEBS Letts. 441 (3). 476-479,
Weil, J. A., Ihlton, J. R. and We&, J. E. (1994) Electron Paramagnetic
Resonance. Elementay theory and applications, John Wiley and Son,
New York.
Wolf. S M., Fenari, R. P., Traversa, S. and Biernann, K. (2000)
Detern~ination of the carbohydrate composition and the disulphide bond
linkages of bovine lactoperoxidase by mass spectroscopy. J. Mass
Specrrorn 35(2), 210-217
Wmy, C. and McLaren, 1. (1987) A note on the effect of the
lactoperoxidase system on SalmoneMa in vitm and in vim, J. Appl.
Bacterial. 133, 2007-2014.
Wright, R. C. and Tmmer, J. (1958) Factors influencing the activity of
cheese starters. The mle of milk peroxidase, J. Daiy Res., 25, p. 104.
Wutt~nch. K. (1970) In "Structure and Bonding", 8, 53-121, Springer
Verlag, New York.
Yang, J. T.. Wu, C. S. C. and Martinez, H. M. (1986) Methods in
Enzymology 130,208-220
Yu, X.. Lo~maranta, V., Lwnikari, M., Wunder, D., Bowen, W. H. and
Tenuvuo. J (2000) The effect of lactopemxidase system on gluwsyl
tmnsfemse O ol Streptococcilsrnutans, C:hin. J. Dent. Res. 3(2), 61-64.
Zapico, P., Gaya, P., DePaz. M., Nunez, M. and Medina, M. (1991)
Influence of breed, animal and days laciation on lactopemxidase system
components in !goat milk, J. Ilai~y Sci. 74 (3), 783-787.
Zapico, I-'., Gaya, P., Nunez, M. and Medina, M. (1995) Activation of goat
lactoperoxidase system on Pseudomonas fluorescens and EsJenchia coli
at refregemtion temperatures, J. Food Prc~tection 58 (lo), 1:136-1138.
Zeldow, B. J . (1963) Studies on the antibacterial action of human saliva UI
cofacton requirements of Lactobacillus bactencidin, J. Immlm. 90, 12-16.
Zeng. J. and Fenna, R. E. (1992) X-ray clystal strudure of canine
myeloperoxidase at 3 fi resolution, J. MoI. Biol. 226, 185-207.
